- Works better all the time. Huge shift of main logic. Much better.
This commit is contained in:
ccremers 2004-08-18 15:46:33 +00:00
parent b2d21f0a8a
commit 341f519bbb
4 changed files with 107 additions and 51 deletions

View File

@ -1,4 +1,5 @@
/**
*
*@file arachne.c
*
* Introduces a method for proofs akin to the Athena modelchecker
@ -34,6 +35,7 @@ Role I_V;
Role I_R;
Role I_E;
Role I_D;
Role I_RRS;
static int indentDepth;
static int max_encryption_level;
@ -112,7 +114,7 @@ arachneInit (const System mysys)
add_event (READ, NULL);
add_event (READ, NULL);
add_event (SEND, NULL);
I_D = add_role ("I_D: Decrypt");
I_RRS = add_role ("I_D: Encrypt");
return;
}
@ -354,7 +356,6 @@ bind_existing_to_goal (const Binding b, const int index, const int run,
goal_remove_last ();
keycount--;
}
termlistDestroy (keylist);
}
else
{
@ -552,6 +553,9 @@ select_goal ()
b = (Binding) bl->data;
if (!b->done)
{
// We don't care about singular variables, so...
if (!isTermVariable (b->term))
{
float cons;
@ -562,6 +566,7 @@ select_goal ()
best = b;
}
}
}
bl = bl->next;
}
return best;
@ -572,7 +577,7 @@ select_goal ()
* Handles the case where the intruder constructs a composed term himself.
*/
int
bind_intruder_to_construct (const Binding b)
bind_goal_new_intruder_run (const Binding b)
{
Term term;
Termlist m0tl;
@ -588,40 +593,50 @@ bind_intruder_to_construct (const Binding b)
*/
if (!realTermLeaf (term))
{
int run;
int index;
int newgoals;
Roledef rd;
Term t1, t2;
if (realTermTuple (term))
{
warning ("Goal that is a tuple should not occur!");
// tuple construction
t1 = term->left.op1;
t2 = term->right.op2;
error ("Goal that is a tuple should not occur!");
}
else
{
// must be encryption
t1 = term->left.op;
t2 = term->right.key;
}
goal_add (t1, b->run_to, b->ev_to);
goal_add (t2, b->run_to, b->ev_to);
roleInstance (sys, INTRUDER, I_RRS, NULL, NULL);
run = sys->maxruns - 1;
rd = sys->runs[run].start;
rd->message = termDuplicate (t1);
rd->next->message = termDuplicate (t2);
rd->next->next->message = termDuplicate (term);
index = 2;
newgoals = add_read_goals (run, 0, index+1);
#ifdef DEBUG
if (DEBUGL (3))
{
indentPrint ();
eprintf ("Constructing ");
eprintf ("Encrypting ");
termPrint (term);
eprintf (" from smaller terms ");
eprintf (" using term ");
termPrint (t1);
eprintf (" and ");
eprintf (" and key ");
termPrint (t2);
eprintf ("\n");
}
#endif
if (goal_bind (b, run, index))
{
flag = flag && iterate ();
goal_remove_last ();
goal_remove_last ();
}
goal_unbind (b);
remove_read_goals (newgoals);
roleInstanceDestroy (sys);
}
/**
* 2. Constructed from bigger term and decryption key
@ -713,7 +728,7 @@ bind_intruder_to_construct (const Binding b)
//! Bind a regular goal
int
bind_goal_regular (const Binding b)
bind_goal_regular_run (const Binding b)
{
int flag;
@ -728,6 +743,12 @@ bind_goal_regular (const Binding b)
return 0;
}
if (p == INTRUDER)
{
// No intruder roles here
return 1;
}
// Test for interm unification
#ifdef DEBUG
if (DEBUGL (5))
@ -761,11 +782,8 @@ bind_goal_regular (const Binding b)
#endif
// Bind to existing run
flag = bind_existing_run (b, p, r, index, 1);
if (p != INTRUDER)
{
// No intruder: bind to new run
// bind to new run
flag = flag && bind_new_run (b, p, r, index, 1);
}
return flag;
}
else
@ -775,7 +793,7 @@ bind_goal_regular (const Binding b)
}
}
// Bind to all possible sends or intruder node;
// Bind to all possible sends of regular runs
#ifdef DEBUG
if (DEBUGL (5))
{
@ -783,32 +801,60 @@ bind_goal_regular (const Binding b)
eprintf ("Try regular role send.\n");
}
#endif
flag = iterate_role_sends (bind_this_role_send);
return iterate_role_sends (bind_this_role_send);
}
// Bind to all possible sends of intruder runs
int bind_goal_old_intruder_run (Binding b)
{
int run;
int flag;
#ifdef DEBUG
if (DEBUGL (5))
{
indentPrint ();
eprintf ("Try intruder send.\n");
eprintf ("Try regular intruder send.\n");
}
#endif
// Other option: bind to term construction
flag = 1;
for (run = 0; run < sys->maxruns; run++)
{
if (sys->runs[run].protocol == INTRUDER)
{
int ev;
Roledef rd;
flag = flag && bind_intruder_to_construct (b);
// Return result
rd = sys->runs[run].start;
ev = 0;
while (ev < sys->runs[run].length)
{
if (rd->type == SEND)
{
flag = flag && bind_existing_to_goal (b, ev, run, 1);
}
rd = rd->next;
ev++;
}
}
}
return flag;
}
//! Bind a goal in all possible ways
int
bind_goal (const Binding b)
{
if (!b->done)
{
return bind_goal_regular (b);
int flag;
flag = bind_goal_regular_run (b);
flag = flag && bind_goal_old_intruder_run (b);
flag = flag && bind_goal_new_intruder_run (b);
return flag;
}
else
{

View File

@ -226,6 +226,14 @@ void
goal_add (Term term, const int run, const int ev)
{
term = deVar (term);
#ifdef DEBUG
if (term == NULL)
error ("Trying to add an emtpy goal term");
if (run >= sys->maxruns)
error ("Trying to add a goal for a run that does not exist.");
if (ev >= sys->runs[run].step)
error ("Trying to add a goal for an event that is not in the semistate yet.");
#endif
if (realTermTuple (term))
{
int width;
@ -280,6 +288,10 @@ goal_bind (const Binding b, const int run, const int ev)
{
if (!b->done)
{
#ifdef DEBUG
if (run >= sys->maxruns || sys->runs[run].step <= ev)
error ("Trying to bind to something not yet in the semistate.");
#endif
b->done = 1;
b->run_from = run;
b->ev_from = ev;
@ -326,7 +338,7 @@ bindings_c_minimal ()
if (!warshall (graph, nodes))
{
// Hmm, cycle
return 0;
error ("Detected a cycle when testing for c-minimality");
}
}
@ -344,12 +356,12 @@ bindings_c_minimal ()
node_from = node_number (b->run_from, b->ev_from);
// Find all preceding events
for (run = 0; run <= sys->maxruns; run++)
for (run = 0; run < sys->maxruns; run++)
{
int ev;
//!@todo hardcoded reference to step, should be length
for (ev = 0; run < sys->runs[run].step; ev++)
for (ev = 0; ev < sys->runs[run].step; ev++)
{
int node_comp;
@ -360,7 +372,7 @@ bindings_c_minimal ()
Roledef rd;
rd = roledef_shift (sys->runs[run].start, ev);
if (termInTerm (rd->message, b->term))
if (termInTerm (b->term, rd->message))
{
// This term already occurs as interm in a previous node!
return 0;

View File

@ -1092,6 +1092,8 @@ term_constrain_level (const Term term)
int nodel (const Term t)
{
structure++;
if (realTermTuple (t))
structure++;
return 1;
}

View File

@ -81,11 +81,7 @@ warshall (int *graph, int nodes)
{
if (graph[index (k, j)] == 1)
{
/**
* Previously, we tested k == i (self-loop).
* Now we test 2-node loops, i.e. wether there is also a path from i to k.
*/
if (graph[index (i, k)] > 0)
if (k == i)
{
// Oh no! A cycle.
graph[index (k, i)] = 2;